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Arti Kampanye Damai Pemilu Indonesia 2009
Apalah arti sebuah kalimat kalo hanya sebuah slogan. Mari kita cari arti dari Kampanye Damai Pemilu Indonesia 2009.
Kampanye Damai Pemilu Indonesia 2009 artinya menjaga suasana kampanye yang tenang.
Kampanye Damai Pemilu Indonesia 2009 artinya melihat dengan jelas arti dari demokrasi (Democrazy?)
Kampanye Damai Pemilu Indonesia 2009 artinya menghargai kontestan partai lain untuk berkampanye dengan damai
Kampanye Damai Pemilu Indonesia 2009 artinya mengikuti aturan main.
Kampanye Damai Pemilu Indonesia 2009 artinya tidak melanggar lampu merah (he..he..)
Kampanye Damai Pemilu Indonesia 2009 artinya tetap senang walau kalah dalam pemilu
Kampanye Damai Pemilu Indonesia 2009 artinya pengeluaran bensin gedhe...
Kampanye Damai Pemilu Indonesia 2009 artinya lupa tidak tidur siang...
Kampanye Damai Pemilu Indonesia 2009 artinya teriak keras tapi tidak emosi...
Kampanye Damai Pemilu Indonesia 2009 artinya tidak kecewa kalo duit habis buat beli bendera partai...
Kampanye Damai Pemilu Indonesia 2009 artinya bisa jalan-jalan ama pacar sambil kampanye...
Kampanye Damai Pemilu Indonesia 2009 artinya pedagang es lilin laku keras
Kampanye Damai Pemilu Indonesia 2009 artinya kumpul bareng temen2...(kakak, adik, papa, mama, nenek... he..he barangkali ikutan kampanye juga)
Kampanye Damai Pemilu Indonesia 2009 artinya rejekinya tukang sablon kaos lg banyak order...

Ada lagi gak ya? Mo’ nambahin arti Kampanye Damai Pemilu Indonesia 2009? Please comment dibawah ya…?

Posted by Agung at 7:19 PM | Permalink | Comments

Ongoing Research

Posted by Agung at 1:38 AM | Permalink | Comments

High-temperature superconductivity
From Wikipedia, the free encyclopedia
(Redirected from High-temperature superconductor)

Unsolved problems in physics: Why do certain materials exhibit superconductivity at temperatures much higher than 50 K? Is room-temperature superconductivity possible?
High-temperature superconductors are generally considered to be those that demonstrate superconductivity at or above the temperature of liquid nitrogen, or −196 °C (77 K), since this is the most easily attainable cryogenic temperature. Conventional superconductors, by contrast, require temperatures no higher than a few degrees above absolute zero (−273.15 °C or −459.67 °F).
A "high-temperature" superconductor levitates a magnet (with boiling liquid nitrogen underneath) demonstrating the Meissner effect, one of the hallmark properties of superconductivity.
The term high-temperature superconductor was first used to designate the new family of cuprate-perovskite ceramic materials discovered by Johannes Georg Bednorz and Karl Alexander Müller in 1986,[1] for which they won the Nobel Prize in Physics the following year. Their discovery of the first high-temperature superconductor LaBaCuO, with a transition temperature of 35 K, generated much excitement because it was previously widely assumed to be impossible for superconductivity to occur at such "high" temperatures.
Recently, other unconventional superconductors have been discovered. Some of them also have unusually high values of the critical temperature Tc, and hence they are sometimes also called high-temperature superconductors, although the record is still held by a cuprate-perovskite material (Tc=138 K, that is −135 °C), although slightly higher transition temperatures have been achieved under pressure.[2] Nevertheless, it is believed by some researchers that if a room temperature superconductor is ever discovered it will be in a different family of materials.[

Posted by Agung at 1:35 AM | Permalink | Comments